id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
cord-266478-642m488a	Gino, Bruno	Automated Inflating Resuscitator (AIR): Design and Development of a 3D-Printed Ventilator Prototype and Corresponding Simulation Scenario Based on the Management of a Critical COVID-19 Patient	2020-07-11		.txt	text/plain	5438	334	49	title: Automated Inflating Resuscitator (AIR): Design and Development of a 3D-Printed Ventilator Prototype and Corresponding Simulation Scenario Based on the Management of a Critical COVID-19 Patient The aim of this technical report is twofold: first, to describe the design and manufacturing process of the automated inflating resuscitator (AIR), a 3D-printed ventilator training device which operates on the principle of pushing a bag valve mask; second, to present a simulation scenario that can be used for training health professionals how to use this and similar, low-cost, 3D-printed ventilators in the context of ventilator shortages caused by COVID-19. In addition to the description of the ventilator, we also present a simulation case using AIR to train safety, operational ability, crisis resource management, and communication skills. If there is a limited supply of participants, the paramedics team can only be reported by the facilitators, as the main objective of this simulation is training with the use of AIR and care involving a patient with COVID-19.	./cache/cord-266478-642m488a.txt	./txt/cord-266478-642m488a.txt